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Metabolic interrelationship in well fed state ط       Metabolic integration during well fed state

Metabolic interrelationship in well fed state ط       Metabolic integration during well fed state ط      Inter-organ  relationship ط      Hormonal balance: Insulin/glucagon ratio                                           N L3  537-45  ;  D4   528-29. Metabolic Interrelation.

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Metabolic interrelationship in well fed state ط       Metabolic integration during well fed state

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  1. Metabolic interrelationship in well fed state ط      Metabolic integration during well fed state ط     Inter-organ  relationship ط     Hormonal balance: Insulin/glucagon ratio                                           N L3  537-45  ;  D4   528-29

  2. Metabolic Interrelation • Well-Fed State fig13.2 D4 (Mixed Fuels) • Early-Fasting State fig13.3 D4(3-4 hr post-absorptive period) • Fasting Statefig13.4 D4 (early / Intermediate / prolonged starvation) • Re-fed State fig13.6 D4

  3. Metabolic Interrelation 1. Well-Fed State fig13.2 D4 (Mixed Fuels) - In well-fed state the diet supplies the energy requirement (Glc, AA, fat) - increase INS : Glg ratio (Glc, AA, fat)

  4. Metabolic Interrelation • 1. Well-Fed State fig13.2 D4 (Mixed Fuels) • * Carbohydrate (diet) => Glc (liver) activated by INS => • a) produce NADPH • b) stored as Glycogen • c) Oxidized to Pyruvate => • · anaerobically produce Lactate • · complete oxidation (aerobically) through TCA cycle => CO2 + H2O • · converted to fat (G3P => glycerol) and stored in AT or muscle • - no cori cycle • Glc (liver) => other tissues activated by INS • d) Brain/Testis (main source): CO2 + H2O • e) RBCs/Adrenal Medulla (only source): Pyruvate/Lactate • f)  Adipose tissue: fat • g) Muscle: Glycogen / CO2 + H2O

  5. Metabolic Interrelation • 1. Well-Fed State fig13.2 D4 (Mixed Fuels) • * Protein (diet) => AA (liver) activated by INS => • a) usually AA pass liver (↑Km Enzs, except tRNA Enz during growth) to all tissues and activated by INS => • ·  synthesize protein • ·  enters the carbon skeleton & oxidized completely => CO2 + H2O • b) if concentration of dietary AA is high it does not pass the liver • ·  synthesize protein • ·  enters the carbon skeleton & oxidized completely => CO2 + H2O • ·  produce urea • ·  converted to fat =>transported by VLDL, stored in AT & muscle

  6. Metabolic Interrelation 1. Well-Fed State fig13.2 D4 (Mixed Fuels) * Fat (diet) => Chylomicron (lymph) => a) reaches Adipose tissue ·         Stored as TG b)  reaches muscle ·         Stored TG ·         Oxidized to CO2 + H2O

  7. Metabolic Interrelation • 2. Early-Fasting State fig13.3 D4(3-4 hr post-absorptive period) • - In early fasting, hepatic glycogenolysis is an important source of bld glc • Fat & prt reduce gastric emptying fig13.3 D4, fig14.1 NL3 • * Glycogen (liver) activated by Glg => Glc (gluconeogenesis) => other tissues • a) Muslce: alanine cycle • b) RBCs: cori cycle • c) Brain: CO2 + H2O • - End stage: bld glc and ins are low • - no protein synthesis

  8. Metabolic response to starvation ط     Stages of starvation and hormonal balance ط     Post absorptive period : Duration and characters ط     Early starvation : Duration and  fuel  utilization ط     Intermediate starvation : Duration and fuel utilization, glucose alanine and fatty acid cycle ط     Prolonged starvation : characters and causes of death after prolonged starvation ط     Refeeding after prolonged starvation ط     Integration of carbohydrates, Lipid and protein metabolism during starvation ط     Regulatory role of ketone Bodies and T3 in starvation                                           N L3 545-9;  D4   529 -34 

  9. Metabolic Interrelation • 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) • In fasting state, gluconeogenesis is required from AAs & glycerol • A. Fasting State (early starvation) • · Early stage: most tissues utilize glc fig13.4 D4, fig14.2, Table14.1 NL3 • · Then: only brain & anaerobic tissues • · This will increase FA oxid in muscle & other tissues (e.g. kidneys) • · Up to 24 hours

  10. Metabolic Interrelation • 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) • A. Fasting State (early starvation) • * Glucose (liver) =>Cori cycle • a) Lactate (RBCs) => • b) Glucose (liver) => • c) Lactate (RBCs) => • d)Glucose (liver) =>

  11. Metabolic Interrelation • 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) • A. Fasting State (early starvation) • * Protein => AA activated by Glucagon • a) Protein (Liver) => AA => Glucose • ·  Reach brain => Oxidized to CO2 + H2O • b) Protein (Muscle) => AA => Alanine / Glutamine • ·  Alanine reaches liver => gluconeogenesis to glucose + urea • - Glucose reach brain => Oxidized to CO2 + H2O • - Urea reaches kidney => excreted • · Glutamine reaches Gut => Alanine • - alanine reaches liver => gluconeogenesis to glucose + urea • * glucose to brain => oxidized to CO2 + H2O • * urea to kidneys => excretion

  12. Metabolic Interrelation 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) A. Fasting State (early starvation) * Fat (Adipose tissue) => Hydrolyzed to Glycerol + Fatty Acids a)       Glycerol + Fatty Acids reach Liver ·         Glycerol => Glucose - reaches brain => Oxidized to CO2 + H2O ·         Fatty Acids => Ketone bodies - reaches brain => Oxidized to CO2 + H2O - reaches muscle => Oxidized to CO2 + H2O b)       Fatty Acids reaches muscle ·         Oxidized to CO2 + H2O

  13. Metabolic Interrelation 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) B. Intermediate Starvation · Early stage: high gluconeogenesis (lact, glycerol, G-AA) fig14.3, Table14.3 NL3 · Later stage: high KB · 1-24 days

  14. Metabolic Interrelation 3. Fasting Statefig13.4 D4 (early/intermediate/prolonged starvation) C. Prolonged Starvation · Low prt degrade – enz activity (AAs) fig14.4, Table14.4 NL3 · The rate of carb, lipid, prt metab reach steady state · Constant high KB concentration · Low N excretion · Ends with Re-feeding or death · Death is caused by pneumonia, low Ab, shock

  15. Metabolic Interrelation Role of KB · 2-24 days: high KB is produced for brain, nervous tissue, kidney cortex, s.intest epithelial cells, heart · Also decrease in glc utilization, FA oxid and prt degrad in other tissues

  16. Metabolic Interrelation • Role of T3 • · Thyroxine does not control metab rate • · Starve 2-3 days decrease basal metab rate (not thyroxine) • · The active for is triiodothyronine (T3) • · During starvation: decrease production of T3 from T4 • Increase production of reverse-T3 from T4 • · This is to control prt deg & energy expenditure • · Hypothyroid during starvation decrease prt breakdown and urea excretion and increase survival

  17. Metabolic Interrelation • 4. Re-fed State fig13.6 D4 (after fasting / after starvation) • In early-refed state, fat is metabolized normally and normal glucose metabolism is slowly re-established • A. Early Re-feeding After Fasting • · Glc is the main fuel in breakfast fig13.6 D4, fig14.10 NL3

  18. Metabolic Interrelation • A. Early Re-feeding After Fasting • * Carbohydrate (diet) => Glc (liver) activated by INS => • a) Glc reach brain => oxidized to CO2 + H2O • b) Glc reaches Adipose tissue => converted to fat (G3P => glycerol) and stored • c) Glc reaches muscle => stored as Glycogen • d) Glc reaches RBCs => Lactate • ·  Lactate reaches liver => glc stored as glycogen

  19. Metabolic Interrelation • A. Early Re-feeding After Fasting • * Protein (diet) => AA (liver) activated by INS => • a) AA (liver) => • ·  Stored as Glycogen + release Urea • ·  Protein Synthesis • b) AA reach all tissues => • ·  synthesize protein

  20. Metabolic Interrelation • A. Early Re-feeding After Fasting • * Fat (diet) => Chylomicron (lymph) => • a) reaches Adipose tissue • ·  Stored as TG • b) reaches muscle • ·  Stored TG • ·  Oxidized to CO2 + H2O

  21. Metabolic Interrelation B. Re-feeding After Starvation · Same as re-feeding after fasting plus high prt-AA metab · 2 days: increase Glg, GH GC and deacrease INS lead to hogh FA, KB, Glc, AA · 2-4 days; FA, Glc , KB ratio fig14.5 NL3

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